Follow Slashdot blog updates by subscribing to our blog RSS feed

 



Forgot your password?
typodupeerror
×
Power

Switzerland's 20 Million kWh 'Water Battery' Is Now Operational 186

A 900 MW 'water battery' that cost Switzerland 2 billion euros and was under construction for 14 years, is now operational, Euronews reported. The battery is located nearly 2,000 feet (600 m) underground in the Swiss Alps. Interesting Engineering reports: A water battery consists of two large pools of water located at different heights. When power production is high, excessive power is used to move water from the lower pool to the pool at a higher height, which is similar to charging a conventional battery. When power demand increases, the water at the higher level can be released and, as it heads to the lower pool, it passes through turbines that generate electricity and can be used to power the grid.

The water battery that recently went operational in Switzerland has a storage capacity of 20 million kWh, the equivalent of 400,000 electric cars, and is aimed at helping stabilize the energy grid in Switzerland and other connected grids in Europe. The plant has six turbines that can generate 900 MW of power, Euronews revealed. The battery has been built between the reservoirs of Emosson and Vieux Emosson in Valais, a canton in the southwestern part of Switzerland. Located nearly 2,000 feet (600 m) underground, the vast engine room of the plant measures about 650 feet (200 m) long and is over 100 feet (32 m) wide.

To move the building materials to the site, the engineers had first to carve out tunnels through the Alps. The length of the tunnels dug for the project extends to about 11 miles (18 km). Once these tunnels were in place, building material and prefabricated buildings could be moved into the mountain, a process that took 14 years. To increase the energy storage capacity of the battery, the height of the Vieux Emosson dam was also increased by 65 feet (20 m). After all this hard work, the battery is now operational and at its peak is capable of powering 900,000 homes at a time.
This discussion has been archived. No new comments can be posted.

Switzerland's 20 Million kWh 'Water Battery' Is Now Operational

Comments Filter:
  • by slack_justyb ( 862874 ) on Wednesday July 06, 2022 @02:11AM (#62677094)

    Pumped-storage hydroelectricity [wikipedia.org] That is what it is called.

    A water battery consists of two large pools of water located at different heights

    I mean if you're going to spend a whole fucking paragraph on explaining this, for fucks sake, at least use the term that everyone else uses. I get it if you've got a forty-five words or less limit on your story, but I mean shit if you're going to write a page and a half, at least use the correct term ONCE damn it.

    • by Chas ( 5144 ) on Wednesday July 06, 2022 @02:13AM (#62677096) Homepage Journal

      Because they have nothing better to do.

      And using stupid, made up terms like this allow them different marketing opportunities.

      • by ruddk ( 5153113 ) on Wednesday July 06, 2022 @02:17AM (#62677106)

        They are all perfectly cromulant words.

        • Cromulent is simply a rare word, not a neologism, so its not cromulent They want new phrase for things already well known. Like thirst relief chemical dihydrogen monoxide for water.
          • [Citation needed].

            Google NGram Viiewer has no references at all in it, so no appearances in books and periodicals before its coinage by The Simpsons on February 18, 1996. And all dictionary references I have ever consulted cite that as the origin.

      • Because they have nothing better to do.

        And using stupid, made up terms like this allow them different marketing opportunities.

        BeauHD's channel name is "How To And More" so I think you hit the nail on the head!

        Here is one of TVA's projects [tva.com] that began in 1970. They have been using pumped storage FOR DECADES in the USA.

        • Because they have nothing better to do.

          And using stupid, made up terms like this allow them different marketing opportunities.

          BeauHD's channel name is "How To And More" so I think you hit the nail on the head!

          Here is one of TVA's projects [tva.com] that began in 1970. They have been using pumped storage FOR DECADES in the USA.

          The Swiss themselves built some of the earliest pumped-storage power plants— Pumpspeicherkraftwerke [wikipedia.org] —mid-nineteenth-century... The European Alps are, of course, predestined for that technology.

    • by Chas ( 5144 ) on Wednesday July 06, 2022 @02:17AM (#62677108) Homepage Journal

      And you have idiots out there referring to a thermal resistance setup as a "sand battery".

      https://science.slashdot.org/s... [slashdot.org]

      Basically they have no interest in selling their product.
      Their chief product is BULLSHIT.

    • by fahrbot-bot ( 874524 ) on Wednesday July 06, 2022 @02:33AM (#62677128)

      Pumped-storage hydroelectricity [wikipedia.org] That is what it is called.

      Yup and we have an even larger one here in Virginia. The Bath County Pumped Storage Station [wikipedia.org] -- from that Wikipedia article:

      The Bath County Pumped Storage Station is a pumped storage hydroelectric power plant, which is described as the "largest battery in the world", with a maximum generation capacity of 3,003 MW, an average of 2,772 MW, and a total storage capacity of 24,000 MWh.

      The station consists of two reservoirs separated by about 1,260 feet (380 m) in elevation. Until late 2021, it was the largest pumped-storage power station in the world.

    • by Kant ( 67320 )
      You missed the purpose of those articles: to explain, to illustrate to an audience of readers/viewers with general knowledge and non-specialist vocabulary.

      Besides, what is wrong with calling things that have identical functions - energy storage - by the same name? The ability to generalise is considered a positive capacity of the human mind.
      • by vivian ( 156520 )

        I guess we have been using the term battery incorrectly for 'cell' or 'electrochemical cell' when talking about single cell devices for so long, what's more one incorrect usage of the term? Would be nice if they could have use the correct term at least once though.

    • Because this one is underground.

      However, why it is underground, especially in a country like Switzerland, is a big big mystery.

      In the Netherlands, where they have no mountains, this would make sense, but Switzerland?

    • by gweihir ( 88907 )

      Indeed. Note that the operator (Nant de Drance) simply calls it a "pumped storage plant" as it should be: https://www.nant-de-drance.ch/... [nant-de-drance.ch]
      The cool thing is that most of this installation (besides the water reservoirs) is underground.

      The "water battery" seems to be part of the usual dumbing-down for the general public. Which is really quite stupid, because anybody that can read should have no trouble with "pumped storage".

      • by jabuzz ( 182671 )

        The two major pumped storage facilities in the UK are both underground namely Dinorwig and Cruachan. Partly it is because it minimises the visual impact in often in the countryside.

        • I visited Cruachan as a child and loved all the big underground bits. Well worth a visit if you are in the area.
      • by Pascoea ( 968200 )

        ...because anybody that can read should have no trouble with...

        You overestimate the reading ability of the general population. An unsettlingly large portion of the US has a 7th grade reading level or below. The term "water battery" may not be dumbed down enough, unfortunately.

        • by gweihir ( 88907 )

          ...because anybody that can read should have no trouble with...

          You overestimate the reading ability of the general population. An unsettlingly large portion of the US has a 7th grade reading level or below. The term "water battery" may not be dumbed down enough, unfortunately.

          Seriously? That seems worse than most parts of the 3rd world...

          • by Pascoea ( 968200 )
            I wish I was lying. Idk about the third world part, I'd suspect their batting average would be lower, but ours is embarrassingly low for a developed country.
          • Yes, unfortunately it is that bad. A friend retired this May. He was an English teacher. The worst part is the parents don't care, they just want their kid to get a "gold star" and graduate high school.
    • I think we used to have a word for a system holding water in a natural cavity for purposes of energy generation. What could it be? Damn? Damp? Darn? Dang?

    • Gosh! And I really thought the Swizz had invented a way to store electricity inside of a huge chunk of water!

    • by v1 ( 525388 )

      "gravity storage". in this case, "pumped energy storage"

      I suppose having it enclosed makes some things easier, but certainly more expensive and lower capacity than your typical hydro electric dam.

  • The author of the article does not know the prefix "giga"? 20GWh, is it not mucheasier?
    • by Alcari ( 1017246 )
      I use kWh at home and in my electric car, so it sort-of makes sense to keep it relatable.
  • by bradley13 ( 1118935 ) on Wednesday July 06, 2022 @02:40AM (#62677140) Homepage

    Switzerland has several of these pumped storage facilities - this is just one that has been renovated and enlarged.

    The really odd thing?

    With places like Germany having a surfeit of solar panel energy, you'd think these services would be in high demand. Instead, they actually have a lot of trouble paying for themselves. There are lot of stupid politics in play, not only in the power market, but (especially) between Switzerland and the EU. The EU would rather shut down power production than allow Switzerland to make money by offering storage. "Cutting off their nose to spite their face."

    • by DrXym ( 126579 ) on Wednesday July 06, 2022 @03:29AM (#62677210)
      Germany really is schizophrenic on energy. It has a lot of renewable energy thanks to the green party policies but it still imports gas & oil from Russia which runs its economy. It's got to get its shit together. We see from the situation in Ukraine how Germany's foreign policy (and their politicians) have been corrupted from their reliance on gas & oil. Whatever efforts they had for moving to circular economies & renewables need to be doubled or tripled because they're fucked if they don't.
      • Everything is fucked period, if there isn't regime change in Russia fast Europe will become a shithole and the English colonies will brain drain away anyone of value.

        They can't adapt electricity generation and residential heating on a dime.

        • by DrXym ( 126579 )
          Of course they can't turn on a dime but there are things they could do to immediately to reduce consumption and things over time that could dramatically reduce it further. Ukraine should actually provide the impetus to actually do these things.
      • Germany really is schizophrenic on energy. It has a lot of renewable energy thanks to the green party policies but it still imports gas & oil from Russia which runs its economy.

        "but"? More like "as a direct consequence of that". If you're producing from renewables then you're producing only when weather conditions are favorable, and need quickly starting peaker plants to be ready to take over at almost a moment's notice when the sun hides behind a cloud. And natgas is pretty much the only technology available that can do this at a large scale.

        • Germany's gas usage is not a result of the "quick starting peaker" plants aka open-cycle gas turbines. Yes these are necessary as part of renewable installations. I comment on this regularly. They are cheap and easy to build because they aren't designed for efficiency as they only run a few hundred hours per year. Germany's gas consumption is primary for heating buildings, followed by industrial uses (maybe industries that require a lot of heat), traditional energy generation (closed cycle natural gas)
      • Germany really is schizophrenic on energy.

        That is because of German politics. They have a proportional system that makes smaller parties into kingmakers. The Greens use this power to impose silly policies that don't even make sense for the environment, much less the economy.

    • If you don't allow unrestricted mass immigration you can't trade with the EU unless you're China.

      • by AmiMoJo ( 196126 )

        That is untrue.

        You may recall Barnier's famous graphic that was presented to the British right at the start of the brexit negotiations.

        https://img.huffingtonpost.com... [huffingtonpost.com]

        You will note that there are multiple options which do not include freedom of movement, which in any case is not "unrestricted mass immigration" anyway.

    • With places like Germany having a surfeit of solar panel energy, you'd think these services would be in high demand. Instead, they actually have a lot of trouble paying for themselves.

      Moving power half way across the continent is not the cheapest way to do something. Germany's surplus energy is very often local and not easily moved across a very strained grid. Then there's the cross border issue that complicates everything.

      The EU would rather shut down power production than allow Switzerland to make money by offering storage.

      The EU would rather no such thing. The EU is actively investing in *local* solutions to the problems as they arise and providing subsidies and funding for such issues. E.g. in the north of Germany where there is often a surplus of wind there are multiple projects for p

    • "Cutting off their nose to spite their face."

      The Asian equivalent is Not washing their asses to spite water

    • Not so sure it's only about politics. France has mountains too, and a number of pumped storage facilities, such as the Barrage de Grand'Maison [wikipedia.org], and France is in the EU.

      Maybe the reason is that there's just not nearly enough of those facilities to meet the demand?

    • Well the Fench, German and Swiss electricity grids have been integrated since in 1958 and cooperation with EU is still ongoing, but negotiations which would allow for Switzerland to have full access to EU:s single market for electricity broke down in 2021

      Here is a pretty good article: https://www.hsgfocus.ch/hsg-fo... [hsgfocus.ch]

      A Swiss-EU electricity agreement would address the regulatory gaps and help to solve the aforementioned problems. In fact, an agreement has been under negotiation since 2007 – and
      • As the situation heats up in Ukraine, there will likely be increased motivation to conclude an agreement. If not, Switzeland may make bilateral agreements with other countries. The reason there isn't a lot of fanfare about this is because, well, there isn't a lot to make fanfare about. Like Germany, Switzerland (errantly in my opinion) wants to move away from nuclear power. This is a well-governed advanced economy. The most likely outcome is a concluded agreement with the EU. The next likely is an ext
        • I hope you are right and that the internal disagreements within Switzerland are overcome. It is certainly in the interests and to the advantage of both sides to reach an agreement.
    • I don't know the current situation but, historically, many EU counties (including Germany) could meet their "green" energy requirements by purchasing Swiss hydroelectric power. Swiss companies would then purchase "dirty" German energy. The whole thing was ridiculous. Oh and pumped hydro was considered green even if it was pumped at night using excess nuclear capacity. Things have changed somewhat. I suspect that a lot of stupid politics will suddenly smarten up if there is a real shortage of energy any
    • The EU would rather shut down power production than allow Switzerland to make money by offering storage.
      You are an idiot. Complete nonsense. Switzerland itself, and the power companies in the EU are planning for Switzerland to be the power storage hub in central Europe since 20 years. Note: it took 14 years to build this storage plant.

      No idea from where you get yur stupid bollocks nonsense ideas.

  • by LordHighExecutioner ( 4245243 ) on Wednesday July 06, 2022 @02:47AM (#62677152)
    ...but the swiss plant isn't that big, after all [wikipedia.org]. Not far from it there is this dam [wikipedia.org] that is bigger, online since 1973 and never so blatantly advertised (probably because in 1973 nobody was interested into electric cars...).
  • 2B euros sounds cheap, we need lots more of this. Europe is spending more than 112 each year, not buying but subsidising fossil fuels. That money could clearly buy a lot of pumped hydro. and I'd expect most of this hydro project to last for a very long time to come.

    What does the equivalent battery storage cost?

    Looks cheaper actually: https://electrek.co/2018/09/24... [electrek.co]
    "Teslaâ(TM)s 100MW/129MWh Powerpack"

    Haven't got time to check, convert, account for currencies right now.

    • power wise the battery is cheaper 100MW for 66million vs 900MW for 2 billion, but storage size is much smaller 129 MWh vs 20000MWh
    • Europe is spending more than 112 each year, not buying but subsidising fossil fuels. That money could clearly buy a lot of pumped hydro.

      Pumped hydro doesn't move cars, planes, or heat houses. The problem with generalising when talking about subsidies is that it's done to the point of absurdity. There's good reason to subsidise fossil fuels when you look into where the money is going specifically. When you do that you may start to understand why the EU subsidises fossil fuels (to the tune of 176bn EUR/ year, much more than you thought), while also having a mandate to phase out fossil fuels in certain situations and subsidising green projects

      • Re:Cheap? (Score:5, Interesting)

        by gweihir ( 88907 ) on Wednesday July 06, 2022 @06:16AM (#62677452)

        So if you want to do the math you'll find out the battery would cost almost twice as much in terms of energy supplied, or over 10x as much for total capacity. If you ignore capacity and capability you'll find cheaper options than Telsa as well since your local supermarket sells AA batteries for under $1.

        The thing is that most power generation has a reaction time in the range of minutes. For example, Nant de Drance needs 5 minutes for a 100% load change and 10 minutes to switch between generation and storing. Batteries are mainly to bridge that time, which would otherwise have to be done with "spinning reserves" (plant runs so it can react fast). You do not want much this because it causes stability problems and costs a lot of money. As batteries have single-cycle reaction times, they are perfect for giving plants to spin up or down. They are not a good solution for longer supply as they are much more expensive than pumped hydro (which has comparable efficiency).

        Hence what you need is a mix: Batteries for ultra fast, pumped hydro for fast and volume, wind, water and solar for base-load. Oh, and nuclear to destabilize your grid and react dog slow to anything, except when the PoS SCRAMs and leaves you scrambling to bring up all emergency power you have fast to save your grid.

        • While the numbers the plant operator is giving, are correct (I assume), they are misleading for the layman.

          The plant in question has 7 turbines. While 3 are doing nothing, 4 are pumping uphill. You suddenly need frequency stabilization: you start shutting down some of the pumping ones, or all, and start firing up the downhill path for the others. So if all pumps go uphill, you have a 10 minutes time laag of reversing it. If all pumps/turbines go downhill, it is 5 minutes. Actually interesting why one way ta

  • You're always late and never read what's already posted.

  • TFA:

    The plant has six pump turbines and a total power output of 900 MW, enough to power as many as 900,000 homes.

    900,000,000 W / 900,000 homes = 1000 W / home
    1000 W / 240V = 4.167A

    Or at 33VA per sq. meter (NEC 220.12), 1000W / 33VA = 30.3 sq. meter (333 sq. ft.) home. Wow, Europe has tiny homes!

    • You are confusing average power consumption with peak use.

    • It is more so that in Europe no one uses 24h 1kW of power all time ...
      And how you want/why you want to convert that to square feet, is beyond me.
      And for what you actually need A - is even more beyond me.

  • In Portugal we are building floating solar plants on every dam... because, you know, it's never sunny when it rains.
    You can switch between solar and hydro as needed and reuse the same high voltage distribution network for both plants.

  • What this demonstrates is that baseload electricity is a grid function derived from facilities such as these.

  • 20 million kWh storage I'm assuming this is output value, (already factoring in output vs input efficiency losses)
    Turbines that can generate 900 MW.

    Someone smarter please correct my math but it looks like this can run for...22 hours at max capacity?

    I have to be wrong, because it would be ridiculous to spend 14 bn euro for 22 hours of generating capacity, even if it was a cool mega project.

    • Hint: it will be used for load leveling every day and last for centuries (with reasonable maintenance).

    • 22 hours at 900 MW.

      Or 44 hours at 450 MW.

      Or 88 hours at 225 MW.

      Ever play Supreme Commander? These are energy storage tanks. They're a buffer, and the intention is not to drain it to zero percent, but to get a grid through the night or bad weather if renewable realtime capacity dips.

  • by ElizabethGreene ( 1185405 ) on Wednesday July 06, 2022 @07:53AM (#62677748)
    Tennessee has one of these, albeit smaller than the one in the Alps. It's the Raccoon mountain storage facility built back in the 70s. https://www.tva.com/Energy/Our... [tva.com]

Trap full -- please empty.

Working...